TITLE: DESIGN OF SINGLY REINFORCED RECTANGULAR BEAMS USING STRENGTH DESIGN METHOD.PROBLEM:Design a rectangular concrete beam section for positive moment and negative moment for the loads(unfactored) and p values given. Show sketch of cross section, including bar size, arrangement andspacing. Use concrete weight = 236 kN/m³, fy = 414 MPa, f`c = 27.6 MPa, p = 0.5Pmaxconcrete cover = 40 mm, tie bar = 10 mm Ø.Deadload : w₁₁ = 90 kN/mLive Load: WLL = 40 kN/m and PLL = 3kN. Assume beam weight equal to 8 kN/m.PLLW = WDL + WLL +Selfweight of beam3.5m7 m3.5mUse p =Pmax (SUPPORT ONLY)COMPUTATION:Required:1. Factored Load2. Required moment Mu, using NSCP 2015 load combination.a. at the left supportb. at the mid-spanc. at the right support3. Design a singly reinforced rectangular beam:a. at the left supportb. at the mid-spanc. at the right supportUse b=0.54d and 32-mm diameter bar.4. Check adequacy:a. at the left supportb. at the mid-spanc. at the right supportSKETCH

Step 1: Factored Load CalculationThe factored load is determined using the load combination:…

Answered: TITLE: DESIGN OF SINGLY REINFORCED…

Materials Science And Engineering Properties

1st Edition

ISBN:9781111988609

Author:Charles Gilmore

Publisher:Charles Gilmore

Chapter12: Composite Materials

Section: Chapter Questions

Problem 12.7P: Estimate the transverse tensile strength of the concrete in Problem 12.6.

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Similar questions

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A W1422 acts compositely with a 4-inch-thick floor slab whose effective width b is 90 inches. The beams are spaced at 7 feet 6 inches, and the span length is 30 feet. The superimposed loads are as follows: construction load = 20 psf, partition load = 10 psf, weight of ceiling and light fixtures = 5 psf, and live load = 60 psf, A992 steel is used, and fc=4 ksi. Determine whether the flexural strength is adequate. a. Use LRFD. b. Use ASD.
Note For Problems 9.6-1 through 9.6-5, use the lower-bound moment of inertia for deflection of the composite section. Compute this as illustrated in Example 9.7. 9.6-1 Compute the following deflections for the beam in Problem 9.2-1. a. Maximum deflection before the concrete has cured. b. Maximum total deflection after composite behavior has been attained.
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Note For Problems 9.6-1 through 9.6-5, use the lower-bound moment of inertia for deflection of the composite section. Compute this as illustrated in Example 9.7. 9.6-5 For the beam of Problem 9.4-2. a. Compute the deflections that occur before and after the concrete has cured. b. It the live toad deflection exceeds L360 , select another steel shape using either LRFD or ASD.
Note For Problems 9.6-1 through 9.6-5, use the lower-bound moment of inertia for deflection of the composite section. Compute this as illustrated in Example 9.7. 9.6-2 Compute the following deflections for the beam in Problem 9.2-2. a. Maximum deflection before the concrete has cured. b. Maximum total deflection after composite behavior has been attained.
List three common categories of stress that must be known before a beam size can be determined.
How does the addition of air-entraining materials to Portland cement improve the concrete?
Note For Problems 9.6-1 through 9.6-5, use the lower-bound moment of inertia for deflection of the composite section. Compute this as illustrated in Example 9.7. 9.6-4 For the beam of Problem 9.4-1, a. Compute the deflections that occur before and after the concrete has cured. b. If the total deflection after the concrete has cured exceeds L240 select another steel shape using either LRFD or ASD.

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